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COURSE OUTLINE
Department & Faculty:
Electrical Engineering Department
Full Time Program, UTMSPACE
UTM International Campus
Page : 1 of 6
Course Code:
Electric Circuits (DDPE 1102)
No. of Credits : 2
Semester: 1
Academic Session: 2012 / 2013
Lecturer
Sec
Room
Tel.No
En Noraimi Bin Shafie
05
V403B
4255
[email protected]
En Abdul Ghani Sirat
14
CW105
4395
[email protected]
Dr Noor Hamizah Hussain
11
CW110
4393
[email protected]
Pn Norulhusna Ahmad
11
V204A
4705
[email protected]
Pn Norliza Mohamed
06
V204S
4702
[email protected]
Synopsis
:
Email address
This course is designed to introduce the students to the fundamentals of electric
circuits, laws and theorems. It will emphasize on the concepts of electric charge,
current, voltage, energy and power. Laws and rules that will be covered in series,
parallel and series-parallel circuits includes Ohm’s Law, Kirchhoff voltage and
current law, voltage and current divider rule. Network theorems includes source
conversion, superposition, delta-to-wye and wye-to-delta conversion. The course
will also covers fundamental concepts for transients in capacitive and inductive
networks including initial and steady-state conditions. Students will be exposed
with Electronic Workbench software to simulate electric circuits and verify
calculation. At the end of the course, students should be able to apply the laws and
theorems to solve problems in dc electric circuits.
Prepared by:
Name: En Noraimi Bin Shafie
Signature:
Date: June 2012
Certified by: Program Head
Name: Pn. Umi Salmah Mihad
Signature:
Date:
COURSE OUTLINE
Department & Faculty:
Department of Electrical Engineering
Full Time Program, UTMSPACE
UTM International Campus
Page : 2 of 6
Course Code:
Electric Circuits (DDPE 1102)
No. of Credits : 2
Semester: 1
Academic Session: 2012 / 2013
LEARNING OUTCOMES
By the end of the course, students should be able to:
No.
1.
Course Learning Outcome
Programme
Learning
Outcome(s)
Addressed
Taxonomy
and KI
Levels
PO1, PO3
C1-C3
CTPS 1 –
CTPS 3
PO8
A1-A3
EM1-EM3
Assessment
Methods
a. Define, explain and calculate electric charge, current,
voltage, resistance, energy, power and efficiency in dc
electric circuits and their units of measurements.
b. Identify series, parallel and combination in dc electric
circuits. Solve for voltage, current, resistance, energy
and power using circuit laws and rules.
c. State, illustrate and apply network theorems to solve
problems in dc electric circuits.
Test,Quiz,
Assignment,
Final Exam
d. Select and use equations to sketch graphs for steadystate conditions and transients in capacitive and
inductive networks.
e. Use Electronic Workbench software to draw, simulate
DC electric circuits and verifying calculation.
2.
Practice ethics values and responsible towards others
2
Log Book/
Attendent
COURSE OUTLINE
Department & Faculty:
Department of Electrical Engineering
Full Time Program, UTMSPACE
UTM International Campus
Page : 3 of 6
Course Code:
Electric Circuits (DDPE 1102)
No. of Credits : 2
Semester: 1
Academic Session: 2012 / 2013
STUDENT LEARNING TIME
No.
A.
B.
C.
Teaching and Learning Activities
Face-to-face Learning
1. Lectures
2. Labs / Tutorial
3. Student Centred Learning (SCL) Activities
Self Directed Learning
1. Non Face-to-Face Learning
2. Revision
3. Preparation for formal assessments
Formal Assessments
1. Test and Quizes
2. Final Examination
Student Learning Time (hours)
28
14
15
10
7
Total
TEACHING METHODOLOGY
Lecture, Discussion, Directed Reading
3
4
2
80
COURSE OUTLINE
Department & Faculty:
Department of Electrical Engineering
Full Time Program, UTMSPACE
UTM International Campus
Page : 4 of 6
Course Code:
Electric Circuits (DDPE 1102)
No. of Credits : 2
Semester: 1
Academic Session: 2012 / 2013
WEEKLY SCHEDULE
Week 1
LECTURE
TUTORIAL
3 hr
1
2
1. Units of measurement
Systems of units
2. Voltage
Week 2
LECTURE
TUTORIAL
3 hrs
2
3
1. Current
2. Resistance
Color coding
3 hrs
4
1. Ohm’s Law
2. Power, Energy
Efficiency
Quiz 1
Week 3
LECTURE
TUTORIAL
Assignment 1
Assignment 1 to be submitted in week 4
Week 4
LECTURE
TUTORIAL
3 hrs
5
1. Series dc circuits
2. Kirchhoff’s Voltage Law
Introduction to EWB
3 hrs
5
6
1.
2.
Quiz 2
Week 5
LECTURE
TUTORIAL
Assignment 2
Assignment 2 to be submitted in week 6
3 hrs
Week 6
LECTURE
TUTORIAL
6
Week 8
LECTURE
TUTORIAL
1.
2.
Power distribution in parallel circuits
Current divider rule
1.
TEST 1
Week 7
LECTURE
TUTORIAL
Voltage divider rule
Parallel dc circuits
Kirchhoff’s Current Law
2.
3
hrs
7
3.
4.
3 hrs
7
TOPIC 1, 2, 3 AND 4
1. Series-parallel circuits
2. Reduce and return approach
1.
2.
Ladder networks
Ammeter, Voltmeter and Ohmmeter
Quiz 3
4
COURSE OUTLINE
Department & Faculty:
Department of Electrical Engineering
Full Time Program, UTMSPACE
UTM International Campus
Page : 5 of 6
Course Code:
Electric Circuits (DDPE 1102)
No. of Credits : 2
Semester: 1
Academic Session: 2012 / 2013
1.
3 hrs
Week 9
LECTURE
TUTORIAL
8
2.
Quiz 4
Assignment 3
Assignment 3 to be submitted in week 10
3 hrs
Week 10
LECTURE
TUTORIAL
8
TEST 2
3 hrs
Week 11
LECTURE
TUTORIAL
8
1.
2.
1. Current sources in parallel
2. Delta-to-Wye and Wye-to-Delta conversions
3.
4.
TOPIC 5, 6 and 7
1.
2.
3.
Week 12
Week 13
3 hrs
9
1.
TEST 3
Week 17
1. Capacitors
2. Transients in capacitive networks: charging and
discharging phase
TOPIC 8
3
hrs
9
10
3.
1. Instantaneous values and steady-state conditions
2. Inductors
1.
2.
Quiz 5
Assignment 4
Week 16
LECTURE
TUTORIAL
1. Superposition Theorems
2. EWB applications in circuit theorems
SEMESTER BREAK ( 2 WEEKS )
Week 14
LECTURE
TUTORIAL
Week 15
LECTURE
TUTORIAL
1. Current sources
2. Source conversion
3. Assignment 4 to be submitted in week 16
3
hrs
10
1.
2.
Transients in inductive networks : storage and release phase
Instantaneous values and steady-state conditions
Revision and Exam Preparation
5
COURSE OUTLINE
Department & Faculty:
Department of Electrical Engineering
Full Time Program, UTMSPACE
UTM International Campus
Page : 6 of 6
Course Code:
Electric Circuits (DDPE 1102)
No. of Credits : 2
Semester: 1
Academic Session: 2012 / 2013
REFERENCES :
1.
Robert L Boylestad, Essentials of Circuit Analysis, International Edition, Prentice Hall
2.
Robert L Boylestad, Introductory Circuit Analysis, 12th Edition, Prentice Hall, 2010.
3.
Thomas L Floyd, Principles of Electric Circuits – Conventional Current Version, 9th Edition, Prentice Hall, 2010
4.
John P Borris, (2000), Electric Circuits Using Electronics Workbench – Hardware and Simulation Exercises, 2nd
Edition, Prentice Hall.
(TK 7867 B67 2000)
GRADING:
Item
1.
2.
Assessment Method
Number
Test
3
Log Book – Class
Attendance
5.
Final Exam
Overall %
Implementation Date
40%
Test 1
10%
Week 5
Test 2
15%
Week 9
Test 3
15%
Week 13
Assignments (Individual)
+
Quizzes
3.
Each assessment
4
5%
5
Week 3, 5, 9, 15
Week 2, 4, 8, 9, 15
5%
1
50%
Total
6
100%